CN114931830A - Purification device for glass raw material processing and use method thereof - Google Patents

Abstract

The present invention and the technical field of glass processing, in particular to a purification device for glass raw material processing, in particular to a method for using a purification device for glass raw material processing, including a gas filter device and an automatic cleaning device; the automatic cleaning device is fixedly installed in On the gas filtering device, the automatic cleaning device also includes a synchronous clamping device, a cleaning device, a circulating flushing device and an air flow inspection device; the synchronous clamping device is fixedly installed on the side of the gas filtering device; the cleaning device is fixedly installed on the side of the synchronous clamping device. At the working end, the working end of the cleaning device is arranged vertically upward; the circulating flushing device is arranged directly above the cleaning device, the circulating flushing device is fixedly connected with the synchronous clamping device, the output end of the circulating flushing device is vertically downwardly arranged, and the circulating flushing device is arranged vertically downward. The input end of the air filter is communicated with the bottom of the cleaning device; the air flow inspection device is fixedly installed at the output end of the air filter device. The application can effectively improve the filtration efficiency and save manpower at the same time.

Description

A kind of purification device for glass raw material processing and using method thereof

technical field

The invention relates to the technical field of glass processing, in particular to a purification device for glass raw material processing, and in particular to a method for using the purification device for glass raw material processing.

Background technique

Glass, as a more common decoration material, is very popular because of its low price, high quality, strong durability, acid and alkali resistance, soft and bright color. However, the waste gas pollution when the raw materials are heated in the production process of the glass factory seriously affects the environment.

Chinese patent CN201920379868.5 discloses a glass production waste gas collection and treatment device including a waste gas treatment box and a furnace. The waste gas treatment box is divided into a sedimentation chamber and a water storage chamber. The bottom of the sedimentation chamber is installed with a gas transmission pipe, so The other end of the gas pipe is communicated with the furnace, a horizontal adhesion net is installed inside the sedimentation chamber, a physical purification box and a chemical purification box are installed inside the water storage cavity, and the top of the physical purification box is The top of the chemical purification box is communicated with the top of the sedimentation chamber, a filter plate is movably installed inside the physical purification box, and the bottom of the physical purification box is communicated with the top of the sedimentation chamber through a pipeline.

Although the above technical solutions can effectively remove harmful substances in the exhaust gas, the gas can meet the qualified emission standards. The adhesion net inside the waste gas treatment box filters the larger particles in the exhaust gas, but the adhesion net filters the larger particles in the exhaust gas, and the particles attached to the adhesion net will cause the adhesion net to block and affect the exhaust gas purification speed. At the same time, manual cleaning is performed. Adhering to the net is relatively troublesome, so a purification device for glass raw material processing and a method of using the same are needed to solve the above problems.

SUMMARY OF THE INVENTION

Based on this, it is necessary to provide a purification device for glass raw material processing and a method of using the same in view of the problems of the prior art. The application can effectively improve the filtration efficiency and save manpower at the same time.

In order to solve the prior art problem, the technical scheme adopted in the present invention is:

A purification device for glass raw material processing, comprising a gas filtering device and an automatic cleaning device; the automatic cleaning device is fixedly installed on the gas filtering device, and the automatic cleaning device further comprises a synchronous clamping device, a cleaning device, a circulating flushing device and an air flow inspection device; The synchronous clamping device is fixedly installed on the side of the gas filter device; the cleaning device is fixedly installed on the working end of the synchronous clamping device, and the working end of the cleaning device is arranged vertically upward; The device is fixedly connected with the synchronous clamping device, the output end of the circulating flushing device is arranged vertically downward, the input end of the circulating flushing device is communicated with the bottom of the cleaning device; the air flow inspection device is fixedly installed on the output end of the gas filtering device.

Preferably, the synchronous clamping device includes a mounting plate, a first mounting bracket, a limit slider, a connecting plate, a connecting rod, a threaded rod and a first rotary driver; the mounting plate is fixedly installed on the side of the gas filter device, and the mounting plate There are several limit mounting rails; the first mounting bracket is fixedly installed on the mounting plate; the limit slider is provided with several and evenly distributed inside the limit mounting rails of the mounting plate, and the limit slider is installed with the limit of the mounting plate The rail is slidingly connected; the threaded rod is rotatably installed between the installation plate and the first installation bracket; the first rotary driver is fixedly installed on the first installation bracket, and the first rotary driver is connected with the threaded rod; the connecting plate is provided with an internal thread hole , the inner threaded hole of the connecting plate is threadedly connected with the threaded rod; the connecting rod is provided with several evenly distributed on the limit slider, one end of the connecting rod is rotatably connected with the limit slider, and the end of the connecting rod away from the limit slider is connected with the connecting plate Turn the connection.

Preferably, the cleaning device includes a sewage collection tank, a first ball screw sliding table, a second mounting frame, a guide post, a spring, a synchronous drive device and a rotating brush head; the sewage collection tank is fixedly installed on the synchronous clamping device; the first The ball screw slide table is fixedly installed on the side of the sewage collection tank; the second installation frame is fixedly installed on the working end of the first ball screw slide table; the synchronous drive device is set above the second installation frame; On the synchronous drive device, one end of the guide column is fixedly connected to the bottom of the synchronous drive device, and one end of the guide column away from the synchronous drive device is slidably connected to the second mounting frame; the spring is provided with several evenly distributed on the guide column, and one end of the spring is installed with the second mounting frame. The end of the spring away from the mounting frame collides with the bottom of the synchronous drive device; the rotating brush head is provided with several and evenly distributed on the synchronous drive device, and the rotating brush head is connected with the synchronous drive device in a transmission manner.

Preferably, the synchronous drive device includes a third mounting frame, a transmission gear and a second rotary driver; the third mounting frame is fixedly connected to the guide column; the transmission gear is provided with several evenly distributed on the third mounting frame, and the transmission gear rotates with the mounting frame connection; the second rotary driver is fixedly mounted on the third mounting frame, and the second rotary driver is connected with the transmission gear.

Preferably, the circulating flushing device includes a sealing plate, a water spray head, a suction pump and a sewage separation tank; the sealing plate is fixedly installed on the synchronous clamping device; a plurality of water spray heads are evenly distributed on the sealing plate, and the water spray heads It is fixedly connected with the sealing plate; the sewage separation box is arranged under the cleaning device, and the sewage separation box is communicated with the interior of the cleaning device; the suction pump is arranged beside the sewage separation box, and the input end of the suction pump is communicated with the sewage separation box, and the suction pump is The output end of the pump is communicated with the water spray head.

Preferably, the sewage separation box includes a box body, a pull-out mounting frame and a filter layer; the box body is arranged below the cleaning device, the box body is in communication with the cleaning device, and a mounting rail is provided on the side of the box body; the pull-out mounting bracket slides Installed on the mounting rail of the box body; the filter layer is fixedly installed on the pull-out mounting frame.

Preferably, the airflow inspection device includes a mounting shell, a rotating wheel and a rotational speed detector; the mounting shell is fixedly mounted on the output end of the gas filter device; the rotating wheel is rotatably installed inside the mounting shell, and the rotating wheel is provided with several rotating blades; It is fixedly installed on the side of the installation shell, and the detection end of the rotational speed detector is fixedly connected with the rotating wheel.

Preferably, the gas filtration device includes an exhaust gas treatment box, a physical purification box, a chemical purification box and a mobile filter device; a water storage chamber and a sedimentation chamber are arranged inside the exhaust gas treatment box; the physical purification box and the chemical purification box are fixedly installed in the exhaust gas Inside the water storage chamber of the treatment tank; the mobile filter device is fixedly installed inside the sedimentation chamber.

Preferably, the mobile filter device includes a second ball screw sliding table, a mounting frame and an adhesive net; the second ball screw sliding table is fixedly installed on the side of the waste gas treatment box; the installation frame is slidably installed in the sedimentation chamber of the waste gas treatment box Inside, the side part of the installation frame is fixedly connected with the working end of the second ball screw slide table; the adhesive net is fixedly installed inside the installation frame.

A method for using a purification device for glass raw material processing, comprising the following steps;

S1. Guide the exhaust gas into the interior of the precipitation chamber of the exhaust gas treatment box through the guide pipe, and the mobile filter device preliminarily filters the exhaust gas inside the precipitation chamber through the adhesive net, and the adhesive net filters the particulate impurities in the exhaust gas. The waste gas rises into the water storage chamber of the waste gas treatment box. The physical purification box inside the water storage chamber filters the waste gas through multi-layer filter plates. The exhaust gas purified by the physical purification box enters the chemical purification box, and the chemical purification box passes through the purification liquid. Purify the waste gas, and the filtered gas rises and is discharged from the waste gas treatment box;

S2. The air flow inspection device is used to detect the air output of the gas filter device. When the adhesion net filter is blocked, the air output of the gas filter device is reduced, and the air flow inspection device prompts the staff that the gas filter device is blocked;

S3. The mobile filter device drives the adhesion net to move between the cleaning device and the circulating flushing device;

S4. The synchronous clamping device drives the cleaning device and the circulating flushing device to synchronously clamp the adhesive net of the moving filter device;

S5. The circulating flushing device cleans the bottom of the adhesion net, and the circulating flushing device flushes the gas adhesion net; the cleaning device and the circulating flushing device cooperate to quickly clean and dredge the adhesion net.

Compared with the prior art, the present application has the following beneficial effects:

1. The application uses a gas filter device to filter, purify and filter the gas generated during the processing of glass raw materials, and the airflow inspection device is used to detect the gas output of the gas filter device. The device prompts the staff that the gas filter device is blocked; the filter area of the gas filter device moves between the cleaning device and the circulating flushing device; the synchronous clamping device drives the cleaning device and the circulating flushing device to synchronously clamp the filter area of the gas filtering device; circulating flushing The device cleans the bottom of the filtering area of the gas filtering device, and the circulating flushing device flushes the filtering area of the gas filtering device; the cleaning device and the circulating flushing device cooperate to quickly clean the filtering area of the gas filtering device; this application can effectively It can improve the filtration efficiency and save manpower at the same time.

2. The application moves between the cleaning device and the circulating flushing device through the filter area of the gas filter device. The first rotary driver is preferably a servo motor. The servo motor drives the threaded rod to rotate, the threaded rod drives the connecting plate to rise, and the connecting plate drives the connecting rod. Synchronous shrinkage, when the connecting rod shrinks, it drives the limit slider to synchronously shrink and transfer. When the limit slider synchronously shrinks and moves, it drives the cleaning device and the circulating flushing device to clamp the filter area of the gas filter device. The circulating flushing device and the gas filter The bottom of the filtering area of the device is cleaned, and the circulating flushing device flushes the filtering area of the gas filtering device; the cleaning device and the circulating flushing device cooperate to quickly clean the filtering area of the gas filtering device, and the cleaning device and the circulating flushing device are driven synchronously. Synchronous shrinkage can effectively improve the stability of clamping and fixing.

3. The application moves between the cleaning device and the circulating flushing device through the filtering area of the gas filtering device, and the synchronous clamping device drives the cleaning device and the circulating flushing device to synchronously clamp the filtering area of the gas filtering device, the sewage collection box and the gas filtering device. The bottom of the filter area is in contact with the bottom of the filter area, and the guide post cooperates with the spring to push the synchronous drive device to elastically resist upward, so that several rotating brush heads on the synchronous drive device are in contact with the filter area of the gas filter device, and the synchronous drive device drives several rotating brush heads Synchronous rotation, when the rotating brush head rotates, the filter area of the gas filter device is cleaned by friction, and the first ball screw sliding table is used to drive the rotating brush head to move horizontally to improve the cleaning range. Flushing through the circulating flushing device and friction cleaning with the rotating brush head can effectively improve the decontamination effect.

4. The application moves between the cleaning device and the circulating flushing device through the filtering area of the gas filtering device, the synchronous clamping device drives the cleaning device and the circulating flushing device to synchronously clamp the filtering area of the gas filtering device, and the sealing plate is used to interfere with the gas filtering In the filter area of the device, the water spray head flushes the water to the filter area of the gas filter device, the flushed sewage falls into the interior of the cleaning device, the cleaning device transports the sewage to the inside of the sewage separation tank, and the sewage separation box separates and processes the sewage, pumping it out. The suction pump is used to extract the sewage inside the sewage separation tank, and the dredging efficiency can be quickly improved by spraying water through several water nozzles.

5. The application enters the inside of the box through sewage, the filter layer is used to filter and separate the sewage, and the pull-out mounting frame is convenient for pulling the filter layer and replacing the filter layer inside the box. Filtration of sewage through the filter layer can effectively save water costs.

6. In the present application, when the purified gas is discharged through the gas filter device, it will enter the interior of the installation shell. The installation shell guides the gas into the rotating wheel, and the airflow drives the rotating wheel to rotate. When the rotating wheel rotates, it drives the rotational speed detector, and the rotational speed detector is used for inspection. The rotation speed of the rotating wheel can determine whether the gas filter device is blocked according to the rotation speed of the rotating wheel.

Description of drawings

Fig. 1 is the three-dimensional schematic diagram of the present application;

Fig. 2 is the front view of this application;

Fig. 3 is the front view of the gas filter device and the airflow inspection device of the present application;

Fig. 4 is the sectional view at the A-A section in Fig. 3;

Fig. 5 is the three-dimensional schematic diagram of the mobile filter device of the present application;

6 is a front view of the airflow inspection device of the present application;

Fig. 7 is the sectional view at the B-B section in Fig. 6;

8 is a schematic perspective view of the synchronous clamping device of the present application;

Fig. 9 is the front view of the circulating flushing device of the present application;

10 is a front view of the sewage separation tank of the present application;

Figure 11 is a sectional view at the C-C section in Figure 10;

12 is a schematic perspective view of the cleaning device of the present application;

13 is a front view of the synchronous drive device of the present application;

FIG. 14 is a work flow diagram of the present application.

The symbols in the figure are:

1-gas filtering device; 1a-exhaust gas treatment box; 1a1-water storage chamber; 1a2-precipitation chamber; 1b-physical purification box; 1c-chemical purification box; 1d-mobile filter device; 1d1-second ball screw Sliding table; 1d2-mounting frame; 1d3-adhesive net;

2-air flow inspection device; 2a-installation shell; 2b-rotating wheel; 2b1-rotating blade; 2c-rotation speed detector;

3-synchronous clamping device; 3a-installation plate; 3b-first installation bracket; 3c-limiting slider; 3d-connecting plate; 3e-connecting rod; 3f-threaded rod; 3g-first rotary drive;

4-cleaning device; 4a-sewage collection tank; 4b-first ball screw slide table; 4c-second mounting frame; 4d-guide post; 4e-spring; 4f-synchronous drive device; 4f1-third mounting frame; 4f2 - transmission gear; 4f3 - second rotary drive; 4g - rotary brush head;

5-circulating flushing device; 5a-spray head; 5b-suction pump; 5c-sewage separation tank; 5c1-box body; 5c2-drawing installation frame;

Detailed ways

In order to further understand the features, technical means, and specific goals and functions of the present invention, the present invention will be described in further detail below with reference to the accompanying drawings and specific embodiments.

As shown in Figure 1 and 13, this application provides:

A purification device for glass raw material processing, comprising a gas filtering device 1 and an automatic cleaning device; the automatic cleaning device is fixedly installed on the gas filtering device 1, and the automatic cleaning device further comprises a synchronous clamping device 3, a cleaning device 4, and a circulating flushing device 5 and the air flow inspection device 2; the synchronous clamping device 3 is fixedly installed on the side of the gas filter device 1; the cleaning device 4 is fixedly installed on the working end of the synchronous clamping device 3, and the working end of the cleaning device 4 is set vertically upward; The device 5 is arranged directly above the cleaning device 4, the circulating flushing device 5 is fixedly connected with the synchronous clamping device 3, the output end of the circulating flushing device 5 is arranged vertically downward, and the input end of the circulating flushing device 5 is communicated with the bottom of the cleaning device 4 ; The airflow inspection device 2 is fixedly installed at the output end of the gas filter device 1 .

Based on the above embodiments, the technical problem to be solved by the present application is to avoid clogging of the gas filter device 1 during operation. To this end, the present application uses the gas filter device 1 to filter, purify and filter the gas generated during the processing of the glass raw material, and the airflow inspection device 2 is used to detect the gas output of the gas filter device 1. The air output decreases, and the airflow inspection device 2 prompts the staff that the gas filter device 1 is blocked; the filter area of the gas filter device 1 moves between the cleaning device 4 and the circulating flushing device 5; The synchronous clamping device 3 drives the cleaning device 4 and the circulating flushing device The device 5 synchronously clamps the filtering area of the gas filtering device 1; the circulating flushing device 5 cleans the bottom of the filtering area of the gas filtering device 1, and the circulating flushing device 5 flushes the filtering area of the gas filtering device 1; The cooperation of the flushing device 5 can quickly clean the filtering area of the gas filtering device 1; the present application can effectively improve the filtering efficiency and save manpower at the same time.

Further, as shown in Figure 8:

The synchronous clamping device 3 includes a mounting plate 3a, a first mounting bracket 3b, a limit slider 3c, a connecting plate 3d, a connecting rod 3e, a threaded rod 3f and a first rotary driver 3g; the mounting plate 3a is fixedly installed on the gas filter device 1 On the side of the mounting plate 3a, there are several limit mounting rails; the first mounting bracket 3b is fixedly installed on the mounting plate 3a; the limit slider 3c is provided with several and evenly distributed inside the limit mounting rails of the mounting plate 3a , the limit slider 3c is slidably connected with the limit mounting rail of the mounting plate 3a; the threaded rod 3f is rotatably mounted between the mounting plate 3a and the first mounting bracket 3b; the first rotary driver 3g is fixedly mounted on the first mounting bracket 3b , the first rotary driver 3g is connected with the threaded rod 3f by transmission; the connecting plate 3d is provided with an internal threaded hole, and the internal threaded hole of the connecting plate 3d is threadedly connected with the threaded rod 3f; the connecting rod 3e is provided with several evenly distributed on the limit slider On 3c, one end of the connecting rod 3e is rotatably connected with the limit slider 3c, and one end of the connecting rod 3e away from the limit block 3c is rotatably connected with the connecting plate 3d.

Based on the above embodiments, the technical problem to be solved by the present application is to facilitate synchronously driving the cleaning device 4 and the circulating flushing device 5 to synchronously shrink and move. For this reason, the present application moves between the cleaning device 4 and the circulating flushing device 5 through the filtering area of the gas filtering device 1. The first rotary driver 3g is preferably a servo motor, and the servo motor drives the threaded rod 3f to rotate, and the threaded rod 3f drives the connecting plate. 3d rises, the connecting plate 3d drives the connecting rod 3e to shrink synchronously, when the connecting rod 3e shrinks, it drives the limit slider 3c to shrink and move synchronously. The filtration area of 1 is clamped according to regulations, the circulating flushing device 5 cleans the bottom of the filtering area of the gas filtering device 1, and the circulating flushing device 5 flushes the filtering area of the gas filtering device 1; the cleaning device 4 cooperates with the circulating flushing device 5 The filtering area of the gas filtering device 1 can be cleaned quickly, and the stability of clamping and fixing can be effectively improved by synchronously driving the cleaning device 4 and the circulating flushing device 5 to shrink synchronously.

Further, as shown in Figure 12:

The cleaning device 4 includes a sewage collection tank 4a, a first ball screw slide table 4b, a second mounting frame 4c, a guide post 4d, a spring 4e, a synchronous drive device 4f and a rotating brush head 4g; the sewage collection tank 4a is fixedly installed on the synchronization clamp The first ball screw sliding table 4b is fixedly installed on the side of the sewage collection tank 4a; the second mounting bracket 4c is fixedly installed on the working end of the first ball screw sliding table 4b; the synchronous driving device 4f is arranged on the first Above the two mounting brackets 4c; the guide column 4d is provided with several evenly distributed on the synchronous drive device 4f, one end of the guide column 4d is fixedly connected to the bottom of the synchronous drive device 4f, and one end of the guide column 4d away from the synchronous drive device 4f is connected with the second mounting bracket 4c Sliding connection; the spring 4e is provided with several evenly distributed on the guide post 4d, one end of the spring 4e is in conflict with the second mounting frame 4c, and the end of the spring 4e away from the mounting frame is in conflict with the bottom of the synchronous drive device 4f; the rotating brush head 4g is provided with several and Evenly distributed on the synchronous driving device 4f, the rotating brush head 4g is drivingly connected with the synchronous driving device 4f.

Based on the above embodiments, the technical problem to be solved by the present application is to clean the filter area of the gas filter device 1 . To this end, the present application moves between the cleaning device 4 and the circulating flushing device 5 through the filtering area of the gas filtering device 1, and the synchronous clamping device 3 drives the cleaning device 4 and the circulating flushing device 5 to synchronously clamp the filtering area of the gas filtering device 1. , the sewage collection box 4a is in contact with the bottom of the filter area of the gas filter device 1, and the guide post 4d cooperates with the spring 4e to push the synchronous drive device 4f to elastically collide upward, so that several rotating brush heads 4g on the synchronous drive device 4f and the gas filter device 1 The filter area of the gas filter 1 is in contact with each other, and the synchronous driving device 4f drives several rotating brush heads 4g to rotate synchronously. When the rotating brush head 4g rotates, the filter area of the gas filter device 1 is rubbed and cleaned. The first ball screw slide table 4b is used to drive The rotating brush head 4g moves horizontally to improve the cleaning range. The decontamination effect can be effectively improved by rinsing with the circulating rinsing device 5 and rubbing and cleaning with the rotating brush head 4g.

Further, as shown in Figure 13:

The synchronous drive device 4f includes a third mounting frame 4f1, a transmission gear 4f2 and a second rotary driver 4f3; the third mounting frame 4f1 is fixedly connected to the guide post 4d; the transmission gear 4f2 is provided with several evenly distributed The gear 4f2 is rotatably connected with the mounting frame; the second rotary driver 4f3 is fixedly mounted on the third mounting frame 4f1, and the second rotary driver 4f3 is drivingly connected with the transmission gear 4f2.

Based on the above embodiments, the technical problem to be solved by the present application is to drive the plurality of rotating brush heads 4g to rotate synchronously. For this reason, in the present application, the second rotary driver 4f3 is preferably a servo motor. The servo motor drives the transmission gear 4f2 to rotate. When the transmission gear 4f2 rotates, it synchronizes several transmission gears 4f2. When the transmission gear 4f2 rotates, it drives the rotating brush head 4g to rotate synchronously. .

Further, as shown in Figure 9:

The circulating flushing device 5 includes a sealing plate, a water spray head 5a, a suction pump 5b and a sewage separation tank 5c; the sealing plate is fixedly installed on the synchronous clamping device 3; a number of water spray heads 5a are evenly distributed on the sealing plate, The water spray head 5a is fixedly connected with the sealing plate; the sewage separation box 5c is arranged under the cleaning device 4, and the sewage separation box 5c is communicated with the interior of the cleaning device 4; the suction pump 5b is arranged on the side of the sewage separation box 5c, and the suction pump 5b The input end of the pump is communicated with the sewage separation tank 5c, and the output end of the suction pump 5b is communicated with the water spray head 5a.

Based on the above embodiments, the technical problem to be solved by the present application is to facilitate clearing of the blocked area. To this end, the present application moves between the cleaning device 4 and the circulating flushing device 5 through the filtering area of the gas filtering device 1, and the synchronous clamping device 3 drives the cleaning device 4 and the circulating flushing device 5 to synchronously clamp the filtering area of the gas filtering device 1. , the sealing plate is used to interfere with the filter area of the gas filter device 1, the water spray head 5a flushes the water to the filter area of the gas filter device 1, the flushed sewage falls into the interior of the cleaning device 4, and the cleaning device 4 transports the sewage to the sewage Inside the separation box 5c, the sewage separation box 5c separates and treats the sewage, the suction pump 5b is used to extract the sewage inside the sewage separation box 5c, and the dredging efficiency can be quickly improved by spraying water through several water spray heads 5a.

Further, as shown in Figures 10 and 11:

The sewage separation box 5c includes a box body 5c1, a pull-out mounting frame 5c2 and a filter layer 5c3; the box body 5c1 is arranged below the cleaning device 4, the box body 5c1 is in communication with the cleaning device 4, and a mounting rail is provided on the side of the box body 5c1. ; The pull-out mounting frame 5c2 is slidably installed on the mounting rail of the box body 5c1; the filter layer 5c3 is fixedly installed on the pull-out mounting frame 5c2.

Based on the above embodiments, the technical problem to be solved by this application is to separate sewage. Therefore, in the present application, sewage enters the interior of the box 5c1, and the filter layer 5c3 is used to filter and separate the sewage. Filtration of sewage through the filter layer 5c3 can effectively save water costs.

Further, as shown in Figures 6 and 7:

The airflow inspection device 2 includes a mounting shell 2a, a rotating wheel 2b and a rotational speed detector 2c; the mounting shell 2a is fixedly mounted on the output end of the gas filter device 1; the rotating wheel 2b is rotatably installed inside the mounting shell 2a, and the rotating wheel 2b is provided with The rotating blade 2b1; the rotating speed detector 2c is fixedly installed on the side of the installation shell 2a, and the detection end of the rotating speed detector 2c is fixedly connected with the rotating wheel 2b.

Based on the above embodiments, the technical problem to be solved by the present application is to check whether the gas filter device 1 is blocked. For this reason, the application will enter the inside of the installation shell 2a when the purified gas is discharged through the gas filter device 1. The installation shell 2a guides the gas into the rotating wheel 2b, and the airflow drives the rotating wheel 2b to rotate. When the rotating wheel 2b rotates, it drives the rotation speed detection. The rotation speed detector 2c is used to check the rotation speed of the rotating wheel 2b, and it can be judged whether the gas filter device 1 is blocked according to the rotation speed of the rotating wheel 2b.

Further, as shown in Figures 3 and 4:

The gas filter device 1 includes an exhaust gas treatment box 1a, a physical purification box 1b, a chemical purification box 1c and a mobile filter device 1d; the waste gas treatment box 1a is provided with a water storage chamber 1a1 and a sedimentation chamber 1a2 inside; the physical purification box 1b and the chemical The purification box 1c is fixedly installed inside the water storage chamber 1a1 of the waste gas treatment box 1a; the mobile filtering device 1d is fixedly installed inside the sedimentation chamber 1a2.

Based on the above embodiments, the technical problem to be solved by the present application is to filter the waste gas generated when the glass raw material is heated. To this end, the present application guides the exhaust gas into the precipitation chamber 1a2 of the exhaust gas treatment box 1a through a guide pipe, and the mobile filter device 1d performs preliminary filtering on the gas inside the precipitation chamber 1a2 to remove impurities in the exhaust gas, and the filtered exhaust gas rises Entering the water storage chamber 1a1 of the waste gas treatment box 1a, the physical purification box 1b inside the water storage chamber 1a1 filters the waste gas through multi-layer filter plates, and the exhaust gas purified by the physical purification box 1b enters the chemical purification box 1c. The box 1c purifies the exhaust gas through the purification liquid, and the gas purification effect can be effectively ensured through multi-channel filtration treatment.

Further, as shown in Figure 5:

The mobile filter device 1d includes a second ball screw slide table 1d1, a mounting frame 1d2 and an adhesive net 1d3; the second ball screw slide table 1d1 is fixedly installed on the side of the waste gas treatment box 1a; the installation frame 1d2 is slidably installed on the waste gas treatment box Inside the precipitation chamber 1a2 of 1a, the side of the mounting frame 1d2 is fixedly connected to the working end of the second ball screw slide table 1d1; the adhesive net 1d3 is fixedly mounted inside the mounting frame 1d2.

Based on the above embodiments, the technical problem to be solved by the present application is to facilitate automatic over-moving to the cleaning device 4 and the circulating flushing device 5 . For this reason, the present application fixes the adhesive mesh 1d3 through the installation frame 1d2, and the adhesive mesh 1d3 can effectively filter the particles in the exhaust gas, and the second ball screw slide table 1d1 can drive the installation frame 1d2 and the adhesive mesh when clogging occurs. 1d3 exits the exhaust gas treatment box 1a, and the cleaning convenience can be effectively improved by automatically exiting the installation frame 1d2 and the adhesive net 1d3.

Further, as shown in Figures 1 to 13:

A method for using a purification device for glass raw material processing, comprising the following steps;

S1. Guide the exhaust gas into the precipitation chamber 1a2 of the exhaust gas treatment box 1a through the guide pipe, and the mobile filter device 1d preliminarily filters the waste gas in the precipitation chamber 1a2 through the adhesion net 1d3, and the adhesion net 1d3 filters the waste gas in the waste gas. Particulate impurities, the filtered exhaust gas rises into the water storage chamber 1a1 of the exhaust gas treatment box 1a, the physical purification box 1b inside the water storage chamber 1a1 filters the exhaust gas through multi-layer filter plates, and the purified exhaust gas from the physical purification box 1b enters Inside the chemical purification box 1c, the chemical purification box 1c purifies the waste gas through the purification liquid, and the filtered gas rises and is discharged out of the waste gas treatment box 1a;

S2. The air flow inspection device 2 is used to detect the air output of the gas filter device 1. When the filtration of the adhesion net 1d3 is blocked, the air output of the gas filter device 1 is reduced, and the air flow inspection device 2 prompts the staff that the gas filter device 1 is blocked;

S3, moving the filter device 1d to drive the adhesion net 1d3 to move between the cleaning device 4 and the circulating flushing device 5;

S4, the synchronous clamping device 3 drives the cleaning device 4 and the circulating flushing device 5 to synchronously clamp the adhesive net 1d3 of the moving filter device 1d;

S5. The circulating flushing device 5 cleans the bottom of the adhesion net 1d3, and the circulating flushing device 5 flushes the gas adhesion net 1d3; the cleaning device 4 and the circulating flushing device 5 cooperate to quickly clean and dredge the adhesion net 1d3.

The above examples only represent one or several embodiments of the present invention, and the descriptions thereof are specific and detailed, but should not be construed as a limitation on the scope of the patent of the present invention. It should be pointed out that for those of ordinary skill in the art, without departing from the concept of the present invention, several modifications and improvements can also be made, which all belong to the protection scope of the present invention. Therefore, the protection scope of the patent of the present invention should be subject to the appended claims.

Claims (10)

1. a glass raw material processing purification device, comprising a gas filter device (1) and an automatic cleaning device; the automatic cleaning device is fixedly installed on the gas filter device (1), it is characterized in that, the automatic cleaning device also comprises a synchronous clamping device (3), a cleaning device (4), a circulating flushing device (5) and an airflow inspection device (2); The synchronous clamping device (3) is fixedly installed on the side of the gas filter device (1); The cleaning device (4) is fixedly installed on the working end of the synchronous clamping device (3), and the working end of the cleaning device (4) is arranged vertically upward; The circulating flushing device (5) is arranged directly above the cleaning device (4), the circulating flushing device (5) is fixedly connected with the synchronous clamping device (3), and the output end of the circulating flushing device (5) is arranged vertically downward, and the circulating flushing device (5) is arranged vertically downward. The input end of the flushing device (5) is communicated with the bottom of the cleaning device (4); The airflow inspection device (2) is fixedly installed at the output end of the gas filter device (1). 2 . The purification device for glass raw material processing according to claim 1 , wherein the synchronous clamping device ( 3 ) comprises a mounting plate ( 3 a ), a first mounting bracket ( 3 b ), and a limit slider ( 3 c ). 3 . ), a connecting plate (3d), a connecting rod (3e), a threaded rod (3f) and a first rotary driver (3g); The mounting plate (3a) is fixedly mounted on the side of the gas filter device (1), and the mounting plate (3a) is provided with several limit mounting rails; The first mounting bracket (3b) is fixedly mounted on the mounting plate (3a); The limit sliders (3c) are provided with several and are evenly distributed inside the limit installation rails of the mounting plate (3a), and the limit sliders (3c) are slidably connected with the limit installation rails of the installation plate (3a); The threaded rod (3f) is rotatably mounted between the mounting plate (3a) and the first mounting bracket (3b); The first rotary driver (3g) is fixedly mounted on the first mounting bracket (3b), and the first rotary driver (3g) is in driving connection with the threaded rod (3f); The connecting plate (3d) is provided with an inner threaded hole, and the inner threaded hole of the connecting plate (3d) is threadedly connected with the threaded rod (3f); The connecting rod (3e) is provided with several evenly distributed on the limit slider (3c), one end of the connecting rod (3e) is rotatably connected with the limit slider (3c), and the connecting rod (3e) is far away from the limit slider (3c). One end of the connector is rotatably connected with the connecting plate (3d). 3 . The purification device for glass raw material processing according to claim 1 , wherein the cleaning device ( 4 ) comprises a sewage collection tank ( 4 a ), a first ball screw slide table ( 4 b ), and a second mounting frame. 4 . (4c), guide post (4d), spring (4e), synchronous drive device (4f) and rotating brush head (4g); The sewage collection tank (4a) is fixedly installed on the synchronous clamping device (3); The first ball screw slide table (4b) is fixedly installed on the side of the sewage collection tank (4a); The second mounting bracket (4c) is fixedly mounted on the working end of the first ball screw slide table (4b); The synchronous drive device (4f) is arranged above the second mounting frame (4c); The guide post (4d) is provided with several evenly distributed on the synchronous drive device (4f), one end of the guide post (4d) is fixedly connected with the bottom of the synchronous drive device (4f), and one end of the guide post (4d) is away from the synchronous drive device (4f) slidingly connected with the second mounting bracket (4c); The spring (4e) is provided with several evenly distributed on the guide post (4d), one end of the spring (4e) is in conflict with the second mounting frame (4c), and one end of the spring (4e) away from the mounting frame is in conflict with the bottom of the synchronous drive device (4f) ; The rotating brush heads (4g) are provided with several and are evenly distributed on the synchronous driving device (4f), and the rotating brush heads (4g) are in transmission connection with the synchronous driving device (4f). 4. A purification device for glass raw material processing according to claim 3, characterized in that the synchronous driving device (4f) comprises a third mounting frame (4f1), a transmission gear (4f2) and a second rotary driver (4f3) ; The third mounting bracket (4f1) is fixedly connected with the guide post (4d); The transmission gear (4f2) is provided with several evenly distributed on the third installation frame (4f1), and the transmission gear (4f2) is rotatably connected with the installation frame; The second rotary driver (4f3) is fixedly mounted on the third mounting frame (4f1), and the second rotary driver (4f3) is drivingly connected with the transmission gear (4f2). 5. A purification device for glass raw material processing according to claim 1, characterized in that the circulating flushing device (5) comprises a sealing plate, a water spray head (5a), a suction pump (5b) and a sewage separation tank (5c); The sealing plate is fixedly installed on the synchronous clamping device (3); The water spray heads (5a) are evenly distributed on the sealing plate, and the water spray heads (5a) are fixedly connected with the sealing plate; The sewage separation box (5c) is arranged below the cleaning device (4), and the sewage separation box (5c) is communicated with the interior of the cleaning device (4); The suction pump (5b) is arranged beside the sewage separation tank (5c), the input end of the suction pump (5b) is communicated with the sewage separation tank (5c), and the output end of the suction pump (5b) is connected with the water spray head (5a) ) is connected. 6. A purification device for glass raw material processing according to claim 5, characterized in that the sewage separation tank (5c) comprises a box body (5c1), a pull-out mounting frame (5c2) and a filter layer (5c3); The box body (5c1) is arranged below the cleaning device (4), the box body (5c1) is in communication with the cleaning device (4), and the side part of the box body (5c1) is provided with a mounting rail; The pull-out mounting bracket (5c2) is slidably mounted on the mounting rail of the box body (5c1); The filter layer (5c3) is fixedly mounted on the pull-out mounting bracket (5c2). 7 . The purification device for glass raw material processing according to claim 1 , wherein the airflow inspection device ( 2 ) comprises a mounting shell ( 2 a ), a rotating wheel ( 2 b ) and a rotational speed detector ( 2 c ); 8 . The mounting shell (2a) is fixedly mounted on the output end of the gas filter device (1); The rotating wheel (2b) is rotatably installed inside the mounting shell (2a), and the rotating wheel (2b) is provided with a plurality of rotating blades (6b1); The rotational speed detector (2c) is fixedly installed on the side of the installation shell (2a), and the detection end of the rotational speed detector (2c) is fixedly connected with the rotating wheel (2b). 8 . The purification device for glass raw material processing according to claim 1 , wherein the gas filter device ( 1 ) comprises a waste gas treatment box ( 1 a ), a physical purification box ( 1 b ), a chemical purification box ( 1 c ) and a Mobile filter device (1d); A water storage chamber (1a1) and a sedimentation chamber (1a2) are arranged inside the waste gas treatment box (1a); The physical purification box (1b) and the chemical purification box (1c) are fixedly installed inside the water storage chamber (1a1) of the waste gas treatment box (1a); The mobile filtering device (1d) is fixedly installed inside the precipitation chamber (1a2). 9. A purification device for glass raw material processing according to claim 8, characterized in that the mobile filter device (1d) comprises a second ball screw slide table (1d1), a mounting frame (1d2) and an adhesive net (1d2). 1d3); The second ball screw slide table (1d1) is fixedly installed on the side of the waste gas treatment box (1a); The installation frame (1d2) is slidably installed inside the sedimentation chamber (1a2) of the waste gas treatment box (1a), and the side of the installation frame (1d2) is fixedly connected with the working end of the second ball screw slide table (1d1); The adhesive net (1d3) is fixedly installed inside the mounting frame (1d2). 10. A method of using a purification device for glass raw material processing, characterized in that it comprises the following steps; S1. The waste gas is guided into the precipitation chamber (1a2) of the waste gas treatment box (1a) through the guide pipe, and the mobile filter device (1d) conducts preliminary screening on the waste gas in the precipitation chamber (1a2) through the adhesion net (1d3). Filtration, the adhesion net (1d3) filters the particulate impurities in the exhaust gas, the filtered exhaust gas rises into the water storage chamber (1a1) of the waste gas treatment box (1a), and the physical purification box (1b) inside the water storage chamber (1a1) ) The exhaust gas is filtered through the multi-layer filter plate, the exhaust gas purified by the physical purification box (1b) enters the chemical purification box (1c), and the chemical purification box (1c) purifies the exhaust gas through the purification liquid, and the filtered gas rises Exhaust waste gas treatment box (1a); S2. The air flow inspection device (2) is used to detect the air output of the gas filter device (1). When the filtration of the adhesive net (1d3) is blocked, the air output of the gas filter device (1) will be reduced, and the air flow inspection device (2) will prompt The staff gas filter device (1) is blocked; S3, moving the filter device (1d) to drive the adhesion net (1d3) to move between the cleaning device (4) and the circulating flushing device (5); S4. The synchronous clamping device (3) drives the cleaning device (4) and the circulating flushing device (5) to synchronously clamp the adhesive net (1d3) of the moving filter device (1d); S5. The circulating flushing device (5) cleans the bottom of the adhesion net (1d3), and the circulating flushing device (5) flushes the gas adhesion net (1d3); the cleaning device (4) cooperates with the circulating flushing device (5) The adhesive net (1d3) can be cleaned and dredged quickly.

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